Mesoporous silica SBA-16 nanoparticles: Synthesis, physicochemical characterization, release profile, and in vitro cytocompatibility studies

Mesoporous silica SBA-16 nanoparticles: Synthesis, physicochemical characterization, release profile, and in vitro cytocompatibility studies

[Display omitted] ► It is possible to modify the hydrophobicity of surface of SBA-16 nanoparticles. ► The release kinetic in SBA-16 nanoparticles can be significantly modulated. ► SBA-16 nanoparticles containing alkoxysilanes are not cytotoxic to fibroblasts. ► Silica not induced ROS increase or chr...

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Bibliographic Details
Published in:Microporous and mesoporous materials Vol. 168; pp. 102 - 110
Main Authors: Andrade, Gracielle Ferreira, Soares, Daniel Crístian Ferreira, dos Santos, Raquel Gouvêa, Sousa, Edésia Martins Barros
Format: Journal Article
Language:English
Published: San Diego, CA Elsevier Inc 01-03-2013
Elsevier
Subjects:
Chemistry
Colloidal state and disperse state
Exact sciences and technology
Functionalized silica SBA-16 nanoparticles
General and physical chemistry
Physical and chemical studies. Granulometry. Electrokinetic phenomena
Physicochemical characterization
Porous materials
Release kinetic profile and cytocompatibility studies
Physicochemical characterization
Release kinetic profile and cytocompatibility studies
Functionalized silica SBA-16 nanoparticles
Binary compound
Nanoparticle
Drug carrier
cytocompatibility studies
Atenolol
Porous material
Silica
Mesoporosity
Characterization
Synthesis
Kinetics
Release
Release kinetic profile and
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Summary:[Display omitted] ► It is possible to modify the hydrophobicity of surface of SBA-16 nanoparticles. ► The release kinetic in SBA-16 nanoparticles can be significantly modulated. ► SBA-16 nanoparticles containing alkoxysilanes are not cytotoxic to fibroblasts. ► Silica not induced ROS increase or chromosomal alterations in the MRC-5 cells. In the present work, mesoporous silica SBA-16 nanoparticles with an innovative cubic mesoporous matrix, practically unexplored in terms of functionalization and in vitro studies, has been synthesized and functionalized using two different silanizing agents: 3-amino-propyl-triethoxysilane (APTES) and n-propyltriethoxysilane (PTES). The pure and functionalized silica nanoparticles were physicochemically and morphologically characterized, the results of which presented adequate characteristics for in vitro and in vivo applications. The influence of the functionalization process on the incorporation rate and kinetic release of a model drug (Atenolol) was also studied. These results revealed that samples functionalized with APTES presented a negligible release of Atenolol from the nanoparticles in simulated body fluid (SBF). This is an important result when seeking to avoid the premature release of chemotherapeutic agents or radioisotopes into the bloodstream until it reaches its final destination. Finally, the cytocompatibility in vitro tests were conducted in an MRC-5 cell line, human fetal lung fibroblast cells, at different concentrations. The results indicated no significant change in cell morphology, chromosomal changes, or increase of ROS in the MRC-5 cells related to the control group. All findings from this study reveal a potential application of mesoporous silica SBA-16 nanoparticles as new potential drugs or radioisotope nanocarriers to be applied in therapeutic or diagnostic procedures.
ISSN:1387-1811
1873-3093
DOI:10.1016/j.micromeso.2012.09.034